KR20040000644A - Apparatus and method for reducing the energy of consumption - Google Patents

Abstract

PURPOSE: A method and a device for reducing power consumption are provided to reduce power consumption by adjusting a back light of a portable display, and to extend battery time. CONSTITUTION: A device for reducing power consumption includes a video source device(200), a scalar(201), a timing controller(202), an LCD(203) including a back light(203-1), a user interface controller(204), a battery detector(205), a brightness adjuster(206), an inverter(207), and a transformer(208). The video source device(200) generates video source, and process the source to signal. The scalar(201) adjusts video signal output the video source device(200). The timing controller(202) holds and outputs the output video signal. The user interface controller(204) displays reproducing information to FTL(Fluorescence Light Tube). The battery detector(205) detects a judgment signal output from the user interface controller(204), and controls output of the brightness adjuster(206). The transformer(208) transforms PWM frequency output from the inverter(207), and operates the back light(203-1).

Description

Apparatus and method for reducing the energy of consumption}

The present invention relates to an apparatus and method for operating a portable display device, and more particularly, to an apparatus and method for reducing power consumption of a portable display device when the power source for operating the portable display device is a battery. .

As the demand for portable display devices increases, there is a growing interest in low power, which is directly related to usage time. In particular, in the case of a portable display device that provides a screen, the display is mostly used as a liquid crystal display (LCD). However, since LCDs consume so much power, they do not conflict with portable display devices that require low power consumption. Therefore, an inverter control technology for adjusting the brightness of the backlight, which occupies the largest portion of the LCD power consumption, is essential. When the power source for driving the portable display device is DC JACK, there is no problem even if the power consumption is high. However, when the power source for driving the portable display device is a battery, power consumption needs to be reduced.

FIG. 1 is a block diagram showing the structure of a conventional backlight driving apparatus. The LCD 103 includes a brightness adjusting unit 100, an inverter 101, a transformer 102, and a back light 103-1. It is composed. The inverter 101 generates a pulse wide modulation (PWM) and pulse frequency modulation (PFM) waveform by the input brightness adjustment signal and supplies the waveform to the transformer 102. The backlight 103-1 illuminates the back of the LCD 103 panel so that the LCD 103 screen can be easily seen. The transformer 102 supplies power to the backlight 103-1 using the PWM waveform output from the inverter 101. The brightness adjusting unit 100 adjusts the input Vcc by the variable resistor VR1 and outputs a brightness adjusting voltage signal to the inverter 101.

Inverter 101 has a characteristic that when the applied voltage Vcc drops, the output PWM frequency decreases and the duty ratio becomes relatively large, resulting in a large amount of current flowing in the backlight. Since the battery usually uses a voltage lower than or equal to the DC JACK, and the battery gradually decreases in voltage as the battery is used, the amount of current flowing in the backlight 103-1 becomes larger than when the DC JACK is used. There is a problem to reduce.

The technical problem to be achieved by the present invention is to provide a power consumption reduction device for reducing the power consumption by adjusting the brightness of the backlight which occupies the largest portion of the LCD power consumption when the power source for driving the portable display device is a battery.

Another technical problem to be achieved by the present invention is to provide a power consumption reduction method for reducing power consumption by adjusting the brightness of the backlight which occupies the largest proportion of the LCD power consumption when the power source for driving the portable display device is a battery.

1 is a block diagram showing the configuration of a conventional backlight driving apparatus.

2 is a block diagram showing the configuration of a power consumption reduction apparatus according to the present invention.

FIG. 3 is a detailed view of a brightness controller and a battery detector according to one embodiment of FIG. 2.

4 is a waveform diagram illustrating FIG. 2.

5 is a flowchart showing the operation of the power consumption reduction method according to the present invention.

According to an aspect of the present invention, there is provided a device for reducing power consumption, comprising: a backlight for supplying light to a rear surface of the portable display device; Determining means for checking a power source for operating the portable display device and determining whether the voltage of the power source is reduced for a predetermined time; And backlight driving control means for controlling a current driving the backlight so that the brightness of the backlight is kept constant when the voltage of the power source is decreased for a predetermined time.

In the present invention, the backlight driving control means includes a brightness adjusting unit for outputting a brightness adjustment signal so that the brightness of the backlight is kept constant when the voltage of the power is reduced for a predetermined time; And a backlight driver for converting and outputting a driving current of the backlight so that the brightness of the backlight is kept constant by the brightness adjustment signal.

In the present invention, the constant brightness and current maintained by the backlight driving control means is characterized in that the reference brightness and the reference current provided by the power source (Power Source) that always provides a constant voltage.

According to another aspect of the present invention, there is provided a method for reducing power consumption, the method for operating a portable display device, the method comprising: (a) checking a power source for operating the portable display device for a predetermined time; Determining whether the voltage of the power supply is reduced; And (b) controlling the current driving the backlight to maintain a constant brightness of the backlight of the backlight for supplying light to the display backside of the device according to the determination result.

In the present invention, the brightness and the driving current of the backlight which are kept constant in the step (b) is characterized in that the reference brightness and current provided by the power source (Power Source) that always provides a constant voltage.

According to the present invention, when the voltage of the power is reduced for a predetermined time (b-1a) outputting a brightness adjustment signal so that the brightness of the backlight is kept constant; And (b-2a) converting a driving current to maintain a constant brightness of the backlight by the brightness adjustment signal.

In the present invention, if the voltage of the power supply for a predetermined time (b-1b) outputting a backlight brightness adjustment signal to maintain the current brightness; And (b-2b) maintaining a backlight driving current by the brightness adjustment signal.

Hereinafter, with reference to the accompanying drawings will be described in detail the present invention.

2 is a block diagram showing the configuration of a device for reducing power consumption according to the present invention, wherein the LCD 203 includes a video source device 200, a scaler 201, a timing controller 202, and a backlight 203-1. , A user interface controller 204, a battery detector 205, a brightness adjuster 206, an inverter 207, and a transformer 208.

FIG. 3 is a detailed view of the brightness controller 204 and the battery detector 205 of FIG. 2.

4 is a waveform diagram illustrating FIG. 2.

5 is a flowchart illustrating an operation of a method of reducing power consumption according to the present invention, which includes determining whether a battery is detected (500), outputting a battery enable signal to a high (501), and maintaining a constant brightness of a backlight Reducing the driving current of the backlight (502), outputting the battery enable signal to low (503), maintaining the backlight driving current while maintaining the brightness of the backlight (504), driving the backlight Step 505 is performed.

Next, the present invention will be described in detail with reference to FIGS.

The video source device 200 processes the video source into a signal that can be generated and displayed. The video source device 200 may be referred to as a video processor such as a DVD player, a camcorder, a notebook PC, or the like.

The scaler 201 adjusts the video signal output from the video source device 200 to the LCD 203 scale.

The timing controller 202 holds the video signal output from the scaler 201 and outputs it to the LCD 203.

The user interface controller 204 displays playback information such as a front key for the interface between the user and the portable display device, a remote control key reception and playback time, etc. on a Fluorescence Light Tube (FLT) (not shown). The user interface controller 206 determines whether the operating power of the portable display device is DC JACK or a battery. When the power of the portable display device is DC JACK, the power supply voltage is always constant. When the power of the portable display device is the battery, the power supply voltage decreases with time. Therefore, the user interface controller 204 may check the power supply voltage for a predetermined time to determine whether the power of the portable display device is a DC JAC or a battery.

The battery detector 205 detects a determination signal output from the user interface controller 205 (a signal determining whether a power source of the portable display device is a DC JACK battery or the like) and controls the output of the brightness controller 206. .

The brightness adjusting unit 206 sets and outputs the brightness adjusting signal of the backlight differently according to the determination signal output from the battery detecting unit 205. As shown in FIG. 3, the brightness controller 206 adjusts Vcc with the variable resistor VR1 to output a brightness adjustment signal. When the battery detection unit 205 outputs the battery determination signal, the driving current of the backlight 203-1 increases, so that the brightness adjusting unit 206 reduces the brightness to the driving current of the backlight 203-1 in the state of DC JACK. Output the adjustment signal. When the battery detector 205 outputs the DC JACK determination signal, the brightness controller 206 maintains the brightness and the driving current of the backlight 203-1 in a current state.

The inverter 207 generates a PWM frequency for adjusting the brightness of the backlight 203-1 by the brightness adjustment signal emitted from the brightness adjusting unit 206 and outputs the PWM frequency to the transformer 208. Inverter 207 is characterized in that when the applied voltage (Vcc) falls, the output PWM frequency is reduced and the duty ratio is relatively large, the amount of current increases. In addition, the inverter 207 checks the state of the backlight 203-1 and performs a shutdown function to prevent the set from being damaged by an overcurrent.

The transformer 208 converts the PWM frequency output from the inverter 207 to operate the backlight 203-1.

Referring to FIG. 3, when the power of the portable display device is a battery, the user interface controller 204 outputs a battery determination signal to the battery detector 206. The battery detector 206 outputs a battery enable signal as high. When the battery enable signal becomes high, TR1 is turned on, and Vcc is distributed to R2 // (R1, VR2, R3) for output brightness of the backlight 203-1. As a result, the brightness of the backlight 203-1 output to the inverter 207 is the same as that of the DC JACK. That is, when the power source is a battery by adjusting the brightness signal of the brightness adjusting unit 206, the brightness of the backlight 203-1 is the same as that of the DC JACK. The backlight 203-1 adjustment signal adjusted in the case of DC JACK by the brightness controller 206 is output to the inverter 207, and the inverter 207 is output by the backlight 203-1 by the adjusted backlight brightness adjustment signal. It stably reduces the duty ratio of the PWM frequency, which is the brightness signal of, and outputs it. When the duty ratio of the PWM frequency is stably reduced, the driving current of the backlight 203-1 is reduced to reduce power consumption, and the brightness of the backlight 203-1 maintains the same brightness as when the power is DC JACK.

However, when the DC JACK determination signal is input from the user interface controller 204, the battery detector 206 outputs a battery enable signal as low. When the battery enable signal goes low, TR1 is turned off, and Vcc is converted by the previously adjusted variable resistor VR1 to adjust the brightness of the backlight 203-1, and eventually the backlight output to the inverter 207. (203-1) The brightness adjustment signal is maintained in the current state (state of DC JACK). The driving current of the backlight 20-1 maintained in the current state is output to the inverter 207, and the inverter 207 outputs a PWM waveform having a duty ratio that is stable within a design specification by the brightness adjustment signal.

Referring to FIG. 4, FIG. 4A illustrates a PWM waveform generated by the inverter 207 when the operating power supply of the portable display device is DC JACK. The PWM waveform shown in FIG. 4A has a stable duty ratio within a design specification.

4B illustrates a PWM waveform generated by the inverter 207 when the operating power source of the portable display device is a battery. When the operating power source of the portable display device is a battery, the power supply voltage gradually decreases as time passes. When the input voltage drops, the inverter 207 decreases the output PWM frequency and the duty ratio becomes relatively large, thereby increasing the amount of current flowing through the backlight 203-1. Therefore, the PWM frequency output from the inverter 207 gradually decreases and the duty ratio becomes relatively large, thereby increasing the power consumption of the backlight 203-1.

4C illustrates a PWM waveform generated by the inverter 207 after applying a device for reducing power consumption when the operating power source of the portable display device is a battery. In FIG. 3, when the battery enable signal becomes High, TR1 is turned on, and Vcc is distributed to R2 // (R1, VR2, R3) for output brightness of the backlight 203-1. As a result, the brightness of the backlight 203-1 output to the inverter 207 is the same as that of the DC JACK. That is, when the power source is a battery by adjusting the brightness signal of the brightness adjusting unit 206, the brightness of the backlight 203-1 is the same as that of the DC JACK. The backlight 203-1 adjustment signal adjusted in the case of DC JACK by the brightness adjustment unit 206 is output to the inverter 207, and the inverter 207 is connected to the backlight 203-1 by the adjusted backlight brightness adjustment signal. It stably reduces the duty ratio of the PWM frequency, which is the brightness signal of, and outputs it. When the duty ratio of the PWM frequency is stably reduced, the driving current of the backlight 203-1 is reduced to reduce power consumption, and the brightness of the backlight 203-1 maintains the same brightness as when the power is DC JACK.

Referring to FIG. 5, in operation 500, it is determined whether a battery is detected. When the power of the portable display device is DC JACK, the power supply voltage is always constant. When the power of the portable display device is the battery, the power supply voltage decreases with time. Therefore, the user interface controller 204 may check the power supply voltage for a predetermined time to determine whether the power of the portable display device is a DC JAC or a battery.

When it is determined that the operating power of the portable display device is a battery, the battery detector 205 outputs a battery enable signal as high, and the brightness controller 206 sets the brightness of the backlight 203-1 to DC JACK. In order to maintain, the brightness adjustment signal is converted (steps 501 and 502). If it is determined that the operating power of the portable display device is a battery, the battery detector 206 outputs a battery enable signal as high. When the battery enable signal becomes high, TR1 is turned on, and Vcc is distributed to R2 // (R1, VR2, R3) for output brightness of the backlight 203-1. As a result, the brightness of the backlight 203-1 output to the inverter 207 is the same as that of the DC JACK. That is, when the power source is a battery by adjusting the brightness signal of the brightness adjusting unit 206, the brightness of the backlight 203-1 is the same as that of the DC JACK. The backlight 203-1 adjustment signal adjusted in the case of DC JACK by the brightness adjustment unit 206 is output to the inverter 207, and the inverter 207 is connected to the backlight 203-1 by the adjusted backlight brightness adjustment signal. It stably reduces the duty ratio of the PWM frequency, which is the brightness signal of, and outputs it. When the duty ratio of the PWM frequency is stably reduced, the driving current of the backlight 203-1 is reduced to reduce power consumption, and the brightness of the backlight 203-1 maintains the same brightness as when the power is DC JACK.

When it is determined that the operating power of the portable display device is DC JACK, the battery detector 205 outputs a battery enable signal to Low, and the brightness controller 206 maintains the brightness of the backlight 203-1 in the current state. While maintaining the driving current of the backlight 203-1 (steps 503 and 504). When the DC JACK determination signal is input from the user interface controller 204, the battery detector 206 outputs a battery enable signal as low. When the battery enable signal goes low, TR1 is turned off, and Vcc is converted by the previously adjusted variable resistor VR1 to adjust the brightness of the backlight 203-1, and eventually the backlight output to the inverter 207. (203-1) The drive current is maintained in the present state. The brightness adjustment signal of the backlight 20-1 maintained in the current state is output to the inverter 207, and the inverter 207 outputs a PWM waveform having a duty ratio that is stable within a design specification by the brightness adjustment signal.

The PWM waveform output from the inverter 207 is converted into backlight driving power by the transformer 108 to drive the backlight (step 505). If it is determined that the operating power of the portable display device is a battery, the brightness of the backlight 203-1 remains DC JACK while the driving current of the backlight 203-1 is reduced, thereby reducing power consumption. If it is determined that the operating power supply of the portable display device is DC JACK, the brightness and driving current of the backlight 203-1 are maintained in the current state.

The present invention is not limited to the above-described embodiments and can be modified by those skilled in the art within the spirit of the invention.

As described above, according to the present invention, when the power source for operating the portable display device is a battery, power consumption is reduced by adjusting the brightness of the backlight, which occupies the largest proportion of the LCD power consumption, thereby extending the battery life. Create an effect.

Claims (7)

In a portable display device, A backlight for supplying light to the back of the portable display; Determining means for checking a power source for operating the portable display device and determining whether the voltage of the power source is reduced for a predetermined time; And And a backlight driving control means for controlling a current driving the backlight so that the brightness of the backlight is kept constant when the voltage of the power source is decreased for a predetermined time. The method of claim 1, wherein the backlight driving control means A brightness controller which outputs a brightness adjustment signal to maintain the brightness of the backlight when the voltage of the power is decreased for a predetermined time; And And a backlight driver for converting and outputting a driving current of the backlight so that the brightness of the backlight is constantly maintained by the brightness adjustment signal. The apparatus of claim 1, wherein the constant brightness and current maintained by the backlight driving control means are a reference brightness and a reference current provided by a power source that always provides a constant voltage. In the method of operating a portable display device, (a) checking a power source for operating the portable display device to determine whether the voltage of the power source is reduced for a predetermined time; And and controlling the current driving the backlight to maintain the brightness of the backlight of the backlight supplying light to the back of the display of the device according to the determination result. 5. The method of claim 4, wherein the brightness and driving current of the backlight which are constantly maintained in the step (b) are reference brightness and current provided by a power source that always provides a constant voltage. The method of claim 4, wherein the voltage of the power source is decreased for a predetermined time. (b-1a) outputting a brightness adjustment signal such that the brightness of the backlight is kept constant; And (b-2a) converting a driving current so that the brightness of the backlight is kept constant by the brightness adjustment signal. The method of claim 4, wherein the voltage of the power source is constant for a predetermined time. (b-1b) outputting a backlight brightness adjustment signal to maintain current brightness; And (b-2b) maintaining a backlight driving current by the brightness adjustment signal.